JP3951046B2 - Transmission level control device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a transmission level control apparatus that controls the transmission level of a transmission apparatus such as a radio base station.
[0002]
[Prior art]
For example, a W-CDMA (Wideband-Code Division Multiple Access) base station uses a modulation device that modulates transmission data. With respect to transmission data, the modulated signal is amplified from the power and then transmitted from the antenna. Such a radio base station or transmission apparatus controls the transmission level for each channel in order to prevent interference with adjacent channels, and a transmission level control apparatus is used for this purpose.
[0003]
Conventionally, such a transmission level control device generally performs gain adjustment only on the modulation device side, and always performs constant amplification on the power amplification device side that amplifies the modulated signal for transmission. there were. However, in a system in which a modulation device and a power amplification device are connected by a coaxial cable, the loss of the signal level at the portion of the coaxial cable in particular between them changes the output level of transmission data transmitted from the antenna. was there.
[0004]
Similarly, even if a signal of a certain level is sent to the power amplifier device side on the modulation device side, the output level of the transmission data sent to the antenna fluctuates if there is variation in the amplification factor of the power amplifier device. is what happened. In order to solve such a problem, it is necessary for the operator to make manual adjustments when starting up the radio base station or the transmission apparatus or when exchanging the modulation apparatus or the power amplification apparatus. Therefore, there is a problem that the work becomes complicated and the cost for the work is high.
[0005]
In order to solve such a problem, a transmission level control device has been proposed in which the gain is adjusted in both the modulation device and the power amplification device.
[0006]
FIG. 5 shows a main part of a transmission apparatus having such a conventional transmission level control apparatus. The transmission device 11 includes a modulator 12 and a transmitter 13. The modulator 12 inputs the first transmission data 21 and the second transmission data 22 to the corresponding D / A converters 23 and 24, respectively, and then the first transmission data 21 and the second transmission data 22 through the switches (SW) 25 and 26, respectively. Input to the multiplier 27. The first multiplier 27 performs quadrature amplitude modulation on these transmission data 21 and 22. The modulation output 28 of the first multiplier 27 is input to the first amplifier 29 and amplified. The first amplifier 29 is a variable gain type, and the modulated output signal 31 after amplification is input to the level detection circuit 32. The detection output 33 of the level detection circuit 32 is fed back to the first amplifier 29, whereby the level of the modulation output signal 31 is kept constant.
[0007]
This modulated output signal 31 is input to the second multiplier 41 in the transmitter 13 and multiplied (up-converted) with the local oscillation signal output from the local oscillator 42, and the upper sideband is used as the high frequency signal 44. Is output. The high frequency signal 44 is input to the second amplifier 45. The second amplifier 45 amplifies this and outputs it as a transmission signal 46, while a part of this transmission signal 46 is input to the ALC control (light quantity control) circuit 47 and the control output 48 is input to the second amplifier 45. Control input. By such feedback control, the level of the transmission signal 46 is adjusted to a specified value.
[0008]
As described above, even in the conventional transmission level control apparatus, both the modulator 12 and the transmitter 13 connected thereto are provided with variable gain amplifiers, and control of transmission data transmitted from an antenna (not shown) is performed. It was like that. A transmission level control apparatus as shown in FIG. 5 is disclosed in, for example, Japanese Patent Application Laid-Open No. 2000-013253.
[0009]
Japanese Patent Laid-Open No. 11-205165 discloses a technique for adjusting the transmission power of the transmission power control apparatus by sequentially amplifying and adjusting the transmission power by using first to third gain adjusting means provided independently of each other. is doing.
[0010]
[Problems to be solved by the invention]
In such a conventional transmission level control apparatus, the amplifier or gain adjusting means constituting the same independently adjusts the gain. For this reason, not only does the number of circuit components required for gain adjustment increase, but when the modulation device or power amplification device is replaced, it is necessary to adjust the overall gain. The transmission level control device of the transmission device including the modulation device and the power amplification device has been described above. However, the same problem occurs when the modulation device and the power amplification device are mounted as a panel in a predetermined housing. .
[0011]
Accordingly, an object of the present invention is to provide a transmission level control device capable of integrating transmission level control between a modulation device and a power amplification device.
[0012]
[Means for Solving the Problems]
In the first aspect of the invention, (a) a modulation means for modulating a transmission signal as a signal to be transmitted, a transmission signal modulated by the modulation means, and an indication of an amplification level when the transmission signal is power amplified. Representation Modulate with a modulation method different from the above modulation means. The power amplification level indication signal is multiplexed and transmitted to the connection cable, and the antenna output level of the transmission signal output to the antenna after power amplification via this connection cable is indicated. Modulate with a modulation method different from the above modulation means. The first hybrid means for inputting the antenna output level signal, and the antenna output level inputted by the first hybrid means By letting it pass through a predetermined filter A modulation apparatus comprising: a modulation side detection means for detecting; and a power amplification level instruction signal creation means for creating a power amplification level instruction signal by comparing the antenna output level detected by the modulation side detection means with a predetermined control reference value (B) is connected to the modulation device via the connection cable, distributes the transmission signal and the power amplification level instruction signal sent from the first hybrid means, and sets the antenna output level to the first level via the connection cable. A second hybrid means for transmitting to the hybrid means side, a power amplification side detection means for detecting a power amplification level instruction signal distributed by the second hybrid means, and a transmission signal distributed by the second hybrid means. The antenna output level is adjusted by adjusting the amplification factor based on the power amplification level instruction signal detected by the power amplification side detection means. A power amplifying means for amplifying and outputting to the antenna, a level detecting means for detecting the antenna output level after amplification of the power amplifying means, and an antenna output level signal representing the antenna output level detected by the level detecting means. The transmission level control apparatus includes a transmission power amplifying apparatus including an antenna output level signal supply means for supplying to the second hybrid means.
[0013]
That is, according to the first aspect of the present invention, information necessary for transmission level control is exchanged between the modulation device and the transmission level control device via a connection cable for transmitting a transmission signal. Specifically, the modulator side sends the power amplification level instruction signal. Modulate with a modulation method different from the modulation means to modulate the transmission signal Transmit to the transmission power amplification device, instruct the amplification factor of the power amplification of the transmission signal on the transmission power amplification device side, let the transmission power amplification device side detect the actual antenna output level by this, Modulate with a modulation method different from the above modulation means. This is fed back to the modulator side. As a result, the antenna output level is always detected even if the level of the transmission signal that is modulated is shifted to the transmission power amplifier due to a connection cable such as a coaxial cable, or changes due to device replacement. It is possible to control the transmission level with high accuracy.
[0014]
The invention according to claim 2 is the transmission level control device according to claim 1, wherein the connection cable is a coaxial cable.
[0015]
That is, according to the second aspect of the present invention, the level control of the transmission signal can be performed with high accuracy even when a coaxial cable that has conventionally caused a problem with signal attenuation is used.
[0016]
According to a third aspect of the present invention, in the transmission level control device according to the first aspect, the power amplification level instruction signal and the antenna output level signal are each modulated by an ASK modulation method different from the modulation method of the modulation means and transmitted through the connection cable. It is characterized by being.
[0017]
That is, according to the third aspect of the present invention, the signal can be multiplexed using the same connection cable by making the modulation system of the signal for controlling the transmission level different from the original signal.
[0020]
Claim 4 In the described invention, in the transmission level control device according to claim 1, the modulation device includes (b) a transmission level notification signal receiving means for receiving a transmission level notification signal for notifying a transmission level from a higher-level device; And further comprising a follow-up value calculating means for calculating a follow-up value that serves as a reference for a value to be automatically controlled in the modulation device based on the send level received by the send level notification signal receiving means. .
[0021]
Claims 4 The described invention deals with a case where the modulation device receives a transmission level notification from the host device. In this case, based on the notified transmission level, a driving value serving as a reference for a value to be automatically controlled in the modulation apparatus is calculated, and this is used, or a value set based on this is used. The transmission level is controlled.
[0022]
Claim 5 In the described invention, the claims 4 In the described transmission level control device, at the start of automatic control, the transmission level control device comprises stepwise control means for controlling the transmission level so as to converge in a stepwise manner from a value lower than the driven value calculated by the driven value calculating means. It is characterized by doing.
[0023]
Claims 5 In the described invention, instead of suddenly increasing the output at the time when the output of the transmission signal from the antenna is started, the output is increased step by step, and the transmission level of the transmission level by the cooperation of the modulation device and the transmission power amplification device is increased. The control can be performed smoothly.
[0024]
DETAILED DESCRIPTION OF THE INVENTION
[0025]
【Example】
Hereinafter, the present invention will be described in detail with reference to examples.
[0026]
FIG. 1 shows a main part of a W-CDMA base station provided with a transmission level control apparatus in an embodiment of the present invention. The W-CDMA base station 100 includes a modulation / demodulation panel 101 that performs spreading and modulation / demodulation of symbol data, and a transmission power amplification panel 102 that amplifies the power of the modulated signal, as part of the transmission apparatus. The modem panel 101 and the transmission power amplification panel 102 are connected by a coaxial cable 104. The output side of the transmission power amplification panel 102 is connected to a transmission antenna 105.
[0027]
The modulation / demodulation panel 101 inputs coded symbol data 111 for transmission from the preceding circuit (not shown) to the spreading circuit 112. Similarly, a transmission level notification signal 113 for notifying a transmission level sent from a higher-level device (not shown) and a transmission carrier on / off notification signal 114 for notifying transmission carrier on / off are variously used in the modulation / demodulation panel 101. The signal is input to a modulation / demodulation side CPU (central processing unit) 115 that performs the above control. This modulation / demodulation side CPU 115 outputs an over-input alarm notification signal 116 for issuing an alarm when there is an over-input to a circuit portion (not shown).
[0028]
The spreading circuit 112 in the modulation / demodulation panel 101 performs channelization spreading and scramble spreading processing on the coded symbol data 111, and notifies the modulation / demodulation side CPU 115 of the user-multiplexed and spread-multiplexed total amplitude value 118 after the user multiplexing. It is like that. The spread signal 119 spread by the spread circuit 112 is input to the modulation circuit 121. The modulation circuit 121 modulates this spread signal by QPSK (Quadrature Phase Shift Keying). The modulated modulation signal 122 is input to a D / A conversion converter 123, where a digital signal is converted to an analog signal. An IF (Intermediate Frequency) signal 124 output from the D / A conversion converter 123 is input to the mixer circuit 125. The mixer circuit 125 receives a local signal 126 for up-converting the IF signal 124 from the local oscillator 127. The local oscillator 127 is connected to a PLL (Phase-Locked Loop) IC (Integrated Circuit) 128 that controls the frequency under the monitoring of the modulation / demodulation side CPU 115.
[0029]
An RF (Radio Frequency) signal 131 output from the mixer circuit 125 is supplied to a carrier on / off circuit 132 that performs on / off control of the carrier. The carrier on / off circuit 132 performs on / off control by an on / off control signal 133 supplied from the modulation / demodulation side CPU 115. On the output side of the carrier on / off circuit 132, a first band pass filter 135 for allowing only the signal in the RF signal band from passing through the output signal 134 is disposed. The RF signal 136 that has passed through the first bandpass filter 135 is input to the first hybrid circuit 137. The first hybrid circuit 137 has an inter-CPU level control after the ASK-modulated inter-CPU level control signal 139 output from an ASK (Amplitude Shift Keying) modulation circuit 138 is passed through the second band-pass filter 141. A signal 142 is also input. Here, the second band pass filter 141 is a filter for passing only the ASK modulation band. Further, the first ASK modulation circuit 138 uses the oscillation output 145 input from the first ASK modulation local oscillator 143 to control the level between CPUs supplied from the modulation / demodulation side CPU 115 to the first ASK modulation circuit 138. The command signal 147 is ASK modulated.
[0030]
The first hybrid circuit 137 includes an inter-CPU detection level signal 152 that is ASK-modulated by the second ASK modulation circuit 151 on the transmission power amplification panel 102 side via the RF signal 136, the inter-CPU level control signal 142, and the coaxial cable 104. And synthesize. The inter-CPU detection level signal 152 on the transmission power amplification panel 102 side is detected by the first modulation / demodulation side detection circuit 144, and the result is given to the modulation / demodulation side CPU 115 as the detected inter-CPU detection level signal 146. It is like that.
[0031]
On the other hand, on the transmission power amplification panel 102 side, the RF signal 136 output from the modem panel 101 is input to the second hybrid circuit 153 via the coaxial cable 104. The second hybrid circuit 153 further receives the ASK-modulated inter-CPU detection level signal 152 via the third band-pass filter 154, and distributes the latter inter-CPU detection level signal 152 to the coaxial cable 104. . Here, the third band-pass filter 154 is a filter for allowing the input inter-CPU detection level signal 152 to pass through only the ASK modulation band. The second ASK modulation local oscillator 155 inputs the oscillation output 156 to the second ASK modulation circuit 151 and receives the inter-CPU detection level signal 158 supplied from the transmission power amplification side CPU 157 to the second ASK modulation circuit 151. Used for ASK modulation.
[0032]
A second modulation / demodulation side detection circuit 159 is provided on the transmission power amplification panel 102 side, and an ASK-modulated inter-CPU level control signal 139 sent from the modulation / demodulation panel 101 side via the coaxial cable 104 is received. It comes to detect. The detected inter-CPU level control signal 161 is input to the transmission power amplification side CPU 157.
[0033]
Incidentally, a fourth band-pass filter 162 that passes only the RF signal band is provided on the output side of the second hybrid circuit 153. Therefore, the RF signal 136 output from the modem panel 101 passes through the fourth band pass filter 162, and the output 163 is input to the amplifier 164 and amplified. The amplified RF signal 165 is input to an automatic gain control (AGC) amplifier 167. The automatic gain control amplifier 167 controls the amplification factor by the level control signal 171 after the D / A conversion circuit 169 converts the level control signal 168 converted to the D / A format output from the transmission power amplification side CPU 157. It is supposed to be.
[0034]
The RF signal 172 whose level has been changed by the automatic gain control amplifier 167 is further amplified by the amplifier 173 and then supplied to the antenna 105 as a transmission output 174. The transmission output 174 is also input to the level detection circuit 175 so that the level of the transmission output is detected. The detected level signal 176 is input to the amplifier 177, voltage amplified, and the output 178 is converted into a digital signal by the A / D converter 179. The detection level signal 181 subjected to A / D conversion in this way is input to the transmission power amplification side CPU 157, and an inter-CPU detection level signal 158 is created.
[0035]
The control of the transmission level in the modulation / demodulation panel 101 and the transmission power amplification panel 102 of the W-CDMA base station will be specifically described below.
[0036]
FIG. 2 shows the flow of processing when the modulation / demodulation CPU inputs a transmission level notification signal. The modulation / demodulation side CPU 115 in the modulation / demodulation panel 101 executes a control program stored in a storage medium (not shown) to perform the following process and other processes.
[0037]
That is, the modulation / demodulation side CPU 115 waits for a transmission level notification signal 113 for notifying the transmission level from the host device (step S201). When the transmission level notification signal 113 is sent (Y), the modulation / demodulation side CPU 115 calculates a follow-up value as a value for automatically controlling the transmission level (step S202). Further, a predetermined range is determined in the plus direction and the minus direction from the calculated drive-in value, and a transmission level control command for controlling the transmission level is not output within this range. However, one or both of the plus direction and the minus direction may be “0”.
[0038]
On the other hand, FIG. 3 shows the first half of control when the modulation / demodulation side CPU receives the transmission carrier on / off notification signal. The modulation / demodulation side CPU 115 waits for reception of an ON notification for carrier ON of the transmission carrier ON / OFF notification signal 114 (step S211), and when this is received (Y), the carrier ON / OFF control signal 133 causes the carrier ON / OFF The off circuit 132 is turned on (step S212). Then, an inter-CPU level control command signal 147 is output so that transmission is performed from the antenna 105 at a level lower than the follow-up value calculated in step S202 of FIG. 2 (step S213). Thereafter, the inter-CPU level control command signal 147 is sequentially output at a predetermined interval so as to converge to the drive-in value at a stage where the drive-up value is not reached (step S214: N) (step S215). When the driving value is reached (step S214: Y), automatic transmission level control for automatically adjusting the transmission level is started (step S216). This will be described next.
[0039]
The modulation / demodulation side CPU 115 first calculates the difference from the driven value with reference to the inter-CPU detection level signal 146 detected by the first modulation / demodulation side detection circuit 144. Next, a level to be controlled is calculated by multiplying the difference obtained by this calculation by a gain coefficient. Here, a certain gain coefficient can be variously set such that it is small when controlling in the direction of increasing the transmission level and large when controlling in the direction of decreasing the transmission level.
[0040]
The modulation / demodulation side CPU 115 monitors the spread-multiplexed total amplitude value 118 notified from the spreading circuit 112, and the level output from the antenna 105 does not exceed the maximum transmission level even when an amplitude value greater than or equal to the maximum transmission level is input. To control. For this reason, in such a case, an alarm notification signal 116 for notifying a higher-level device (not shown) that there is an excessive input is output so that no excessive input occurs.
[0041]
The inter-CPU level control command signal 147 output from the modulation / demodulation side CPU 115 is input to the first ASK modulation circuit 138 and becomes an ASK-modulated inter-CPU level control signal 139 and passes through the second band pass filter 141. Input to the first hybrid circuit 137. In the first hybrid circuit 137, it is multiplexed with the RF signal 136 and transmitted to the transmission power amplification panel 102 through the coaxial cable 104.
[0042]
The second hybrid circuit 153 in the transmission power amplification panel 102 distributes the transmitted RF signal 136 and the inter-CPU level control signal 139. The RF signal 136 passes through the fourth band-pass filter 162 that passes only the RF signal band and is input to the amplifier 164. The inter-CPU level control signal 139 passes through the third band-pass filter 154 that passes only the ASK modulation band, and is detected by the second modulation / demodulation side detection circuit 159. The second modulation / demodulation side detection circuit 159 inputs the detected inter-CPU level control signal 161 to the transmission power amplification side CPU 157.
[0043]
The transmission power amplification side CPU 157 outputs a level control signal 168 converted into a D / A format based on the inter-CPU level control signal 161 sent from the modulation / demodulation panel 101 side. The digital / analog conversion is performed by the circuit 169 and used as a level control signal 171 as a control input of the automatic gain control amplifier 167 for changing the gain. The RF signal 172 whose transmission level is controlled by the automatic gain control amplifier 167 is further amplified by the amplifier 173 and then output to the antenna 105.
[0044]
The output level of the RF signal output to the antenna 105 is detected by the level detection circuit 175. The level signal 176 as a detection result is converted into a digital signal by the A / D converter 179 and input to the transmission power amplification side CPU 157. The transmission power amplification side CPU 157 converts the detection level signal 181 and outputs an inter-CPU detection level signal 158. The inter-CPU detection level signal 158 is ASK-modulated by the second ASK modulation circuit 151 to become an ASK-modulated inter-CPU detection level signal 152 that passes through the third band-pass filter 154 that passes only the ASK modulation band. Multiplexed by the second hybrid circuit 153. Then, it passes through the coaxial cable 104 and propagates to the modem panel 101 side.
[0045]
The ASK-modulated inter-CPU detection level signal 152 propagated to the modulation / demodulation panel 101 passes through the second band-pass filter 141 that passes only the ASK modulation band, and is detected by the first modulation / demodulation side detection circuit 144. Is done. The inter-CPU detection level signal 146 is input to the modulation / demodulation side CPU 115. The modulation / demodulation side CPU 115 realizes automatic transmission level control by comparing and controlling the difference between the inter-CPU detection level signal 146 and the drive-in value as described above.
[0046]
A case where the carrier is turned off in the W-CDMA base station in the state described above in which the automatic transmission level control in step S216 is performed will be described with reference to FIGS. The modulation / demodulation side CPU 115 waits for the transmission carrier on / off notification signal 114 to be notified (step S217 in FIG. 3). When there is an off notification for carrier off (Y), an inter-CPU level control command signal 147 is output so that it is transmitted at a level slightly lower than the current inter-CPU detection level signal 146 (see FIG. 4 step S218). Then, at a stage where the driving value is not reached (step S219: N), the level is lowered at regular intervals so as to converge to the driving value (step S220). When the driving value is reached (step S219: Y), the carrier on / off circuit 132 is turned off to turn off the carrier (step S221).
[0047]
In the embodiment described above, the W-CDMA base station 100 has been described as an example. However, the modulation / demodulation panel 101 or the modulation / demodulation apparatus, and the transmission power amplification panel 102 or the transmission power amplification apparatus that performs power amplification of the modulated signal are described. Of course, the present invention can be similarly applied to a transmission level control apparatus that controls the transmission level of another transmission apparatus equipped with the.
[0048]
【The invention's effect】
As described above, according to the first aspect of the present invention, the modulation device side transmits the power amplification level instruction signal to the transmission power amplification device, and instructs the amplification factor of the power amplification of the transmission signal on the transmission power amplification device side. Thus, the actual antenna output level is detected on the transmission power amplifying device side and fed back to the modulation device side. For this reason, the input level of the transmission signal after modulation to the transmission power amplification device side varies due to a connection cable such as a coaxial cable, the loss of the connection cable varies, and the gain varies depending on the replacement of the device or the panel. Even if a serious situation occurs, the transmission level can be accurately controlled using the antenna output level. Therefore, for example, when the present invention is applied to a base station, it is not necessary to perform troublesome work when starting up the base station or replacing the modulation / demodulation panel. Further, since the transmission signal and the signal for controlling the transmission level are transmitted via the same connection cable, it is not necessary to provide a special transmission path for the control.
[0049]
According to a third aspect of the present invention, in a system that does not have a CPU interface between the modem and the power amplifying device, a control signal between the modem and the power amplifying device for performing automatic transmission control or Since the command is modulated by the ASK modulation method and multiplexed on the connection cable for transmitting the transmission signal, it is not necessary to newly increase the interface between the devices for control.
[0051]
And claims 5 According to the described invention, instead of suddenly increasing the output at the time when the output of the transmission signal from the antenna is started, the output is increased stepwise, and transmission is performed in cooperation with the modulation device and the transmission power amplification device. Level control can be performed smoothly. Further, by controlling so as to reach the threshold value in several stages, when the present invention is applied to a base station, it is possible to reduce the influence on a signal being communicated in a nearby cell. Furthermore, if stepwise control is performed even when the carrier is turned off, an effect of allowing a signal during communication to escape to another cell is also produced.
[Brief description of the drawings]
FIG. 1 is a block diagram showing a main part of a W-CDMA base station equipped with a transmission level control apparatus in an embodiment of the present invention.
FIG. 2 is a flowchart showing a processing flow when a modulation / demodulation side CPU inputs a transmission level notification signal in this embodiment.
FIG. 3 is a flowchart showing the first half of control when the modulation / demodulation side CPU receives a transmission carrier on / off notification signal in this embodiment.
4 is a flowchart showing the second half of the control shown in FIG.
FIG. 5 is a block diagram showing a main part of a transmission apparatus including a conventional transmission level control apparatus.
[Explanation of symbols]
100 W-CDMA base station (transmitter)
101 modem panel (modem)
102 Power amplification panel (power amplification device)
104 Coaxial cable
105 Antenna
111 symbol data
115 Modulation / demodulation side CPU
132 Carrier on / off circuit
137 First hybrid circuit
138 First ASK modulation circuit
139, 161 Inter-CPU level control signal
144 First modulation / demodulation side detection circuit
146, 158 Inter-CPU detection level signal
151 Second ASK modulation circuit
153 Second hybrid circuit
157 Transmission power amplification CPU
159 Second modulation / demodulation side detection circuit
167 Automatic gain control amplifier
168 Level control signal
175 Level detection circuit
181 Detection level signal

Claims (5)

A modulation means for modulating a transmission signal as a signal to be transmitted, a transmission signal modulated by the modulation means, and an indication of an amplification level when power-amplifying the transmission signal are modulated by a modulation method different from that of the modulation means. An antenna output that is multiplexed with a power amplification level instruction signal and sent to a connection cable and represents the antenna output level of a transmission signal output to the antenna after the power amplification via this connection cable and is modulated by a modulation method different from the modulation means First hybrid means for inputting a level signal, modulation-side detection means for detecting an antenna output level inputted by the first hybrid means by passing through a predetermined filter, and an antenna detected by the modulation-side detection means Power for generating the power amplification level instruction signal by comparing the output level with a predetermined control reference value A modulation device that includes a wide level instructing signal generating means,
The transmission signal and the power amplification level instruction signal, which are connected to the modulation device via the connection cable and sent from the first hybrid means, are distributed, and the antenna output level is set to the first level via the connection cable. Second hybrid means for sending to the hybrid means side, power amplification side detection means for detecting a power amplification level instruction signal distributed by the second hybrid means, and transmission signal distributed by the second hybrid means Power amplification means for adjusting the amplification factor based on the power amplification level instruction signal detected by the power amplification side detection means to amplify the antenna output level and output to the antenna, and after amplification by the power amplification means Level detecting means for detecting the antenna output level of the antenna and the antenna detected by the level detecting means Transmission level control apparatus characterized by comprising a transmission power amplifying device and an antenna output level signal supplying means for supplying the antenna output level signal to the second hybrid unit representing the power level.   2. The transmission level control apparatus according to claim 1, wherein the connection cable is a coaxial cable.   2. The transmission level control apparatus according to claim 1, wherein the power amplification level instruction signal and the antenna output level signal are each modulated by an ASK modulation method different from the modulation method of the modulation means and transmitted through the connection cable. .   The modulation device includes a transmission level notification signal receiving means for receiving a transmission level notification signal for notifying a transmission level from a higher-level device, and a transmission level in the modulation device based on the transmission level received by the transmission level notification signal receiving means. 2. The transmission level control apparatus according to claim 1, further comprising a driving value calculation means for calculating a driving value serving as a reference for a value to be automatically controlled. A stepwise control unit that controls transmission level so as to converge in a stepwise manner from a value lower than the driving value calculated by the driving value calculating unit to a driving value at the start of automatic control is provided. Item 5. The transmission level control device according to Item 4 .

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